The Yellow River originates at an elevation above 4600 m in the Bayan Har Mountains, in the eastern Qinghai-Xizang Plateau (Figure 7). In its upper reaches, the river crosses two bodies of water, Lakes Ngoring and Gyaring. Those shallow lakes, which freeze over in the winter, are rich in fish and cover an area of about 2000 square km. The Yellow River in that region flows generally from west to east. The broad highlands of the upper course rise 300 to 500 m above the river and its tributary floodplains. The highlands consist of crystalline rocks occasionally visible as eroded outcroppings on the surface. The river enters a region of deep gorges, winding its way first southeast, then northwest around the A’nyêmaqên (Amne Machin) Mountains, where its fall exceeds 2 m per km, and then east between the Xiqing and Laji mountains. Once past the gorges, it leaves the Qinghai-Xizang Plateau near the city of Lanzhou (Figure 8) in southeastern Gansu province. That transition marks the end of the upper Yellow River, some 1165 km from its source. The upper course drains a basin covering about 124,000 km². The upper river course consists chiefly of inaccessible, highly mountainous, sparsely populated terrain with a cold climate.

Figure 7. Yellow river with agricultural fields and levees. The river is filled with sediments [4].

Popov and Greer [12] found “The middle course of the Yellow River,extending more than2900km,consists of a great loop and drains an area of about60,000square km.The river first flows northeast for about880 km through the sandy soils of the northern Hui Autonomous Region of Ningxia and the western Ordos Plateau.It has many rapids,and,in several places,it narrows.The river then turns eastward and flows for another800 km through alluvial plains in the Inner Mongolia Autonomous Region,in places branching into numerous distributary channels.In that stretch,its fall is less than9 cm per km,and many channels have been developed over the millennia for irrigated agriculture.”

“The Yellow River then turns sharply(Figure 8)to the south and flows for about715 km,forming the border between Shaanxi and Shanxi provinces.Theriver’s width usually does not exceed45to60 m in that section,as it cuts through narrow gorges with steep slopes above100m in height.The river then gradually widens,notably after receiving the waters of its two longesttributariesthe Fen River of Shanxi province and the Wei River of Shaanxi.At the confluence with the Wei,the Yellow River turns sharply to the east for another480 km as it flows through inaccessible gorges between theZhongtiaoand eastern Qin(Tsinling)mountains.The average fall in that stretch is slightly more than20 cmper km and becomes increasingly rapid in the last160 km before the river reaches the North China Plain at the city of Zhengzhou in Henan province.”

Figure 8. Lanzhou city on Yellow River [1].

“Most of the middle course is cut through the Loess Plateau,which extends eastward from theQinghai-Xizang Plateauto the North China Plain at elevations ranging between900and2100 m.The plateau contains terraced slopes,alluvial plains,and a scattering of peaks sometimes rising more than450 m above the plateau.The river has cut at least six terraces across the plateau,which rise to more than500 m above the present river level.The terraces,formed over the past2.5million years,provide an important record of landscape evolution and ancient environmental change in the region.The underlying rock systems are covered with thick layers of loosesoils,consisting of wind-deposited sand and loess.The loess strata reach thicknesses of50to60 m and in some places as much as150m.Through those unconsolidated deposits,the river has cut deep valleys,carrying away huge quantities of surface material,making that region one of the most highly eroded landscapes in the world.The easily eroded loess soil accounts for the instability of the riverbed in the middle basin,where the erosion is considerable,and on the plain,where deposition builds up the channel bed” [12].

The Yellow River broadens downstream from Zhengzhou to flow through Shandong and Henan provinces across the North China Plain. The plain is a nearly level, featureless, alluvial fan broken only by the low hills of central Shandong. It was formed over some 25 million years as the Yellow River and other rivers deposited enormous quantities of silt, sand, and gravel into the shallow sea that once covered the region [9]. The plain has been densely inhabited for millennia and has been one of China’s principal agricultural regions (Figure 9). The river has changed its course across the plain several times. The region’s inhabitants have built extensive systems of levees and irrigation works in an attempt to control the river’s flow. The area illustrates perhaps better than any other place on Earth how human activity has combined with natural forces to shape the landscape.

Figure 9. Fields along Yellow River with side channels [4].

Popov and Greer [12] noted “The lower Yellow River is about700km long with an average fall of about5 cm per km.Along the river are found occasional areas of sand dunes5to9 m high.In general,however,the plain is an area of great floods because the riverbed,built up gradually by sediment deposits,lies above the surrounding land in many places.In the section north of Kaifeng in northern Henan,the low-water level is some5 m above the surrounding countryside,the mid-water level between6and7 m,and the high-water level is sometimes as much as9to11m above the land.From Kaifeng to the Grand Canal(DaYunhe),the levees are lower than farther upstream,rarely exceeding1to2m in height.Marshes are common.Below the Grand Canal the height of the levees increases to between4and5 m and in some places to8 m.”

“The delta of the Yellow River(Figure 10)begins approximately80 km from its mouth and spreads out over an area of about5400square km.The delta land is marshy,composed of mud and silt,and is covered with reeds.A sandbar at the river’s mouth impedes navigation at low tide by boats drawing more than1.2meters of water;at high tide the depth on the bar is2.4or2.7 m.”

“Until the late20th century the Yellow River delta was one of the most actively growing deltas in the world,as the North China Plain continued to extend farther

Figure 10. Yellow River delta. Photo credit: NASA Earth Observatory.

into the Bo Hai(the remnant of the ancient sea now covered by the plain).In the century from1870to1970the delta grew an average of more than19 km.Some outlying parts expanded even more rapidly:one area grew10 km during the period1949-1951,and another grew more than24 km in1949-1952.However,beginning in the1950s,dam construction upstream—notably theSanmenGorge installation in Henan province—began to reduce the silt load that the river could carry to its mouth.By the1990s,the delta was expanding seaward,but it was also eroding.The Chinese government subsequently took measures to divert the final part of the main stem,so that deposits built up on the north side of the delta.”

“The lower Yellow River has changed course radically throughout its geologic history.The river’s decreased gradient and velocity on the plain cause its suspended silt load to settle.As the riverbed builds up,the stream shifts course to occupy a lower level.In the past four millennia,the river has entered the Yellow Sea at points800 km apart.From the3rd millennium BCEto602 BCE,when it occupied its northernmost course,it flowed near the present-day city of Tianjin and entered the nearby Bo Hai.From602BCE to70CE both the river and its mouth shifted to a point on the Yellow Sea south of the Shandong Peninsula.From70to1048the Yellow River shifted to the north,taking up a course near its presentbed.”

“From1048to1194the river course changes occurred farther inland,where the river entered the North China Plain.In1194the river occupied a course running to the southern edge of the delta.After protecting dikes were ruptured,a second arm of the Yellow River began flowing south of the Shandong Peninsula.From1289to1324the river took over the bed of the Guo River and a large part of the Huai River,entering the Yellow Sea well to the south of Shandong.It was stable for more than500years,until the1850s,when it shifted to the north of the Shandong Peninsula,finally settling into its present course.”

“As the Chinese developed agriculture on the plain(Figure 11),they became more adept at building levees to stabilize the channel and protect the inhabitants against the floods brought by shifts in the channel.Tens of thousands of miles of levees have been constructed through the centuries.The overall effect of those structures has been to delay flooding.Because the riverbed has been elevated and confined artificially,levee breaching and channel shifts have become more dramatic and destructive than they otherwise would have been.The few hydraulic engineers who succeeded in decreasing rather than increasing the flood hazard have gained legendary status in Chinese history.”

Figure 11. Ag lands and rice paddies [4].

“Breaks in the levees have been more frequent than course changes throughout history.Such events have triggered cataclysmic floods,notably during the18th and20th centuries.Between960and1048there were38major breaks,and29more were recorded from1048to1194.In later years,breaches were less frequent due to systematic improvements to the levee system.The slackening of those efforts during the Taiping Rebellion(1850-1864)led to a major river course change between1852and1854.In1887the Yellow River burst the levees near Kaifeng and began to flow into the Huai River,but engineering efforts returned the river to its former course in1889.The flood of1887covered thousands of square miles,completely burying many villages under silt.In1889another flood destroyed1500villages.The next major flood,in1921,wiped out hundreds of populated places,mainly near the river’s mouth.In the flood of1933,more than3000populated places were submerged and18,000people were killed.Other floods occurred in1938—when the levees were purposely broken near Zhengzhou to delay the advance of Japanese troops in1949” [12].

The Yellow River is notable for the large amount of silt it carries-1.6 billion tons annually at the point where it descends from the Loess Plateau [17]. If it is running to the sea with sufficient volume, 1.4 billion tons are carried to the sea per year. One estimate [9] gives 34 kilograms of silt per cubic meter, as opposed to 10 kilograms of silt per cubic meter for the Colorado [18] and 1 kilograms of silt per cubic meter for the Nile [19].

Its average discharge is said to be 2110 cubic meters per second (32,000 for the Yangtze), with a maximum of 25,000 and minimum of 245 [20]. However, since 1972, it often runs dry before it reaches the sea. The low volume is due to increased agricultural irrigation, increased by a factor of five since 1950. Water diverted from the river as of 1999 served 140 million people and irrigated 74,000 km² of land [21]. The Yellow River delta (Figure 10) totals 8000 square kilometers. However, with the decrease in silt reaching the sea, it has been reported to be shrinking slightly each year since 1996 [22].

The highest volume occurs during the rainy season from July to October, when 60% of the annual volume of the river flows. Maximum demand for irrigation is needed between March and June. To capture excess water for use when needed and for electricity generation and flood control several dams have been built, but their expected life is limited due to the high silt load. A proposed South–North Water Transfer Project involves several schemes to divert water from one in the western headwaters of the Yangtze where they are closest to one another. A second using the route of the old Grand Canal rivers and a third another from the upper reaches of the Han River.

The Yellow River has long been critical to the development of northern China, and is regarded by scholars as one cradle of civilization. Flooding of the river has also caused much destruction, including multiple floods that have resulted in the deaths of over one million people [17]. Among the deadliest were the 1332–33 flood during the Yuan dynasty, the 1887 flood during the Qing dynasty which killed anywhere from 900,000 to 2 million people, and a Republic of China era 1931 flood (part of a massive number of floods that year) that killed 1 - 4 million people [23].

Gascoigne and Gascoigne [24] identified “The cause of the floods is the large amount of fine-grained windblown silt(eroded loess)carried by the river from the Loess Plateau,which is continuously deposited along the bottom of its channel.The sedimentation causes natural dams to slowly accumulate.These subaqueous dams are unpredictable and generally undetectable.Eventually,the enormous amount of water needs to find a new way to the sea,forcing it to take the path of least resistance.When this happens,it bursts out across the flat North China Plain,sometimes taking a new channel and inundating most farmland,cities or towns in its path.”

“The traditional Chinese response of building higher and higher levees alongthe banks sometimes also contributed to the severity of the floods:When flood water did break through the levees,it could no longer drain back into theriver bedas it would after a normal flood.The riverbed was sometimes now higher than the surrounding countryside.These changes could cause the river’s mouth to shift as much as480 km, sometimes reaching the ocean to the north of the Shandong Peninsula and sometimes to the south” [24].

Another historical source of devastating floods is the collapse of upstream ice dams in Inner Mongolia with an accompanying sudden release of vast quantities of impounded water. There have been 11 such major floods in the past century. Each flood caused tremendous loss of life and property. Nowadays, explosives dropped from aircraft are used to break the ice dams before they become dangerous [25].

Before modern dams appeared in China, the Yellow River used to be extremely prone to flooding. In the 2540 years from 595 BC to 1946 AD, the Yellow River has been reckoned to have flooded 1593 times, shifting its course 26 times noticeably and nine times severely [21]. These floods include some of the deadliest natural disasters ever recorded. Before modern disaster management, when floods occurred, some of the population might initially die from drowning and many more would suffer later from the ensuing famine and spread of diseases [26].

The question of how aggressively flooding should be controlled, and whether it should be steered back to its original channels when it migrated, was a topic of controversy in the imperial court. Rival cliques made arguments based on budgetary, technical, and strategic criteria. Geographer Charles Greer [27] identifies “Two competing schools of thought on how to control the Yellow River.One,which he identifies as Confucian,advocated containing the river between higherlevees,thus maximizing the amount of river basin land that could be cultivated.The other,which he associates with Taoism,favored lower levees separated by as much as5 - 10kilometers.In one particular long-running debate during the11thcentury reigns of theShenzongandRenzongemperors,when the river repeatedly broke its levees and migrated north and west,officials battled over whether expensive measures should be taken to return the river to its former channels”. The Shenzong emperor ultimately decreed that the river be allowed to remain in its new course [28].

Crossing the long Yellow River required bridges (Figure 12) which were covered with floodwaters so even floating bridges (Figure 13) were used. Traditional flood control techniques made use of levees, revetments to absorb the energy of the water, overflow basins, drainage canals and polders [29]. Treatises on traditional flood control techniques were written by officials such as Pan Jixun [30], who argued that joining branches of the river increased the water’s power and this in turn increased its ability to flush sediment [31]. The difficult situation around the confluence of the Yellow River, the Huai, and the Grand Canal, however, still led to a major flood of the regional center Sizhou and Pan’s dismissal from court. Subsequently, the river’s 1680 flood entirely submerged Sizhou and the nearby Ming Zuling tombs beneath Hongze Lake for centuries until modern irrigation and flood control lowered the water level enough to permit their excavation and the tombs’ restoration.

Figure 12. Map of the Yellow River crossings [9].

Figure 13. Pontoon bridge [9].

Between 1851 and 1855 [21][32][33], the Yellow River returned to the north amid the floods that provoked the Nien and Taiping Rebellions. The 1887 flood has been estimated to have killed between 900,000 and 2 million people [34], and is the second-worst natural disaster in history (excluding famines and epidemics). The Yellow River more or less adopted its present course during the 1897 flood [31][35]. The 1931 flood killed an estimated 1,000,000 to 4,000,000 [34], and is the worst natural disaster recorded (excluding famines and epidemics).

Lary [36] noted “On9June1938,during the Second Sino-Japanese War,Nationalist troops under Chiang Kai-shek broke the levees holding back the river near the village ofHuayuankouin Henan,causing what has been called by Canadian historian,Diana Lary,a‘war-induced natural disaster’.The goal of the operation was to stop the advancing Japanese troops by following a strategy of using water as a substitute for soldiers.The1938flood of an area covering54,000 km²took some500,000to900,000Chinese lives,along with an unknown number of Japanese soldiers.The flood prevented the Japanese Army from taking Zhengzhou,on the southern bank of the Yellow River,but did not stop them from reaching their goal of capturing Wuhan,which was the temporary seat of the Chinese government and straddles the Yangtze River” [36].

Harrell [29] found “In1954,the People’s Republic of China announced its General Plan to Fundamentally Control Yellow River Flood Disasters and Develop Yellow River Waterworks[37].It sought to address both flooding risks and to convert rainfall-fed fields of the North China Plain to irrigated agriculture.Construction began in earnest in1957.From the1970s to the1990s,the dry-up trends accelerated,with the Yellow River failing to reach its mouth for an average of approximately180days per year in the1990s.In1997,the Yellow River did not reach the sea for226consecutive days.”

“Due to its heavy load ofsiltthe Yellow River is a depositing stream—that is,it deposits part of its carried burden of soil in its bed in stretches where it is flowing slowly.These deposits elevate the riverbed which flows between natural levees in its lower reaches.Should a flood occur,the river may break out of the levees into the surrounding lower flood plain and take a new channel.Historically thishas occurredabout once every hundred years.In modern times,considerable effort has been made to strengthen levees and control floods” [37].

Li [38] noted “The Yellow River basin is rich in fish,being the home of more than160native species in92genera and28families,including19species found nowhere else in the world(endemic).” However, due to habitat loss, pollution, introduced species and overfishing many of the natives have declined or disappeared entirely; several are recognized as threatened on China’s Red List [39][40]. Dams and their reservoirs have increased the habitat for species of slow-moving and static waters, while it excluded species of flowing waters and prevented the up- and down-stream breeding migration of others.

Xi et al. [39] determined “Inthe2000s,only80native fish in63genera and18families were recorded in the Yellow River basin.In contrast,introduced fish have risen in both abundance and number of species;only one introduced fish species was recorded in the1960swhen ichthyologist LiSizhongpublished his original survey of fish fauna of the region,but by the2000sthere were26.”

“As typical of Asian rivers, Cyprinidaeis by far the most diverse family in the Yellow River basin.More than85cyprinids have been recorded in this basin,including species that still are present and species that no longer are present.Otherhighly diverse families are the stone loaches(more than20species),gobies(c. 15species),true loaches(c. 10species)andbagridcatfish(c. 10species)” [39].

“Fishing remains an important activity(Figure 14),but catches have declined.In2007,it was noted that40%fewer fishes were caught in the Yellow River compared to earlier catches[40].At times fishing is banneddoto overfishing.Large cyprinids(Asian carp,predatory carp,Wuchang bream and Mongolian redfin)and large catfish(Amur and Lanzhou catfish)are still present,but the largest species,the Chinese paddlefish, kalugasturgeon and Yangtze sturgeon,have not been reported from the Yellow River basin in about50years[38][39][41].Other species that support important fisheries include white Amur bream,ayu,mandarin fish, Protosalanxicefish,northern snakehead,Asian swamp eel and others” [39].

Figure 14. Net fishing on the Yellow River photo credit: initiativesrivers.org.

Annual fishing ban has been implemented since 2018, covering the entire Yellow River basin from 1 April to 30 June each year. A total ban of fishing of natural fishes is being implemented in the upper reaches of the Yellow River starting 1 April 2022, covering Qinghai, Sichuan and Gansu provinces, until the end of 2025. For the rest of the basin, the annual ban is extended to a period from 1 April to 31 July.

The Yellow River is generally less suitable for aquaculture than the rivers of central and southern China, such as the Pearl or Yangtze rivers, but aquaculture is also practiced in some areas along the Yellow River. An important aquaculture area is the riverside plain in Xingyang, upstream from Zhengzhou. Since the development of fish ponds started in Xingyang’s riverside Wangcun Town in 1986, the pond systems in Wangcun have grown to the total size of 15,000 mu (10 km²), making the town the largest aquaculture center in north China [42].

Two turtle species are native to the Yellow River basin: the Chinese pond turtle and Chinese softshell turtle [43]. Both species—but especially the softshell—are widely farmed for food [44]. A variety of the Chinese softshell turtle popular in Chinese gourmets is called the Yellow River turtle. Nowadays most of the Yellow River turtles eaten in China’s restaurants comes from turtle farms, which may or may not be near the Yellow River. In 2007, construction started in Wangcun, Henan on a large farm for raising this turtle variety. With the capacity for raising 5 million turtles a year, the facility was expected to become Henan’s largest farm of this kind [45].

Yan et al. [46] discovered “The huge,entirely aquatic Chinese giant salamander,a species that has declined drastically due primarily to persecution for food and traditional medicine,is native to the Yellow River and other Chinese rivers.It is farmed in large numbers in several parts of China and genetic studies have revealed that the captive stock mostly is of Yellow River origin.As these often are released back into the wild,the Yellow River type of the Chinese giant salamander has spread to other parts of China,which represents a problem to the other types”.

On 25 November 2008, Tania Branigan of The Guardian filed a report “China’s Mother River:the Yellow River”, claiming that severe pollution has made one-third of China’s Yellow River unusable even for agricultural (Figures 15-17) or industrial use (Figure 18), due to factory discharges (Figure 19) and sewage (Figure 20) from fast-expanding cities [47]. After reaching the first major city, Xining, the river is heavily polluted.

Figure 15. Agricultural fields along Yellow River [4].

Despite Yellow River having a central role in the development of Chinese civilization on North China Plain, flooding and constant rerouting of the river have also caused many great disasters to population along the river [48]. It is also known as a River of Disaster, with the disaster brought by the river said as history of disaster in the development of Chinese civilization [49], and the management of Yellow River have been a great political trouble to various Chinese dynasties throughout the history since ancient time [50].

Figure 16. Workers in agricultural field [3].

Figure 17. Agricultural lands on floodplain with escarpment [4].

Figure 18. Industrial skyline with pollution in Yellow River [9].

Figure 19. Coal mine and drainage into Yellow River through pipes [9].

Figure 20. Trash in Yellow River [9].